SPIRV-Tools/source/fuzz/fuzzer_context.h
Stefano Milizia f12c40f5a6
spirv-fuzz: Fuzzer pass to interchange zero-like constants (#3524)
This fuzzer pass:

For each zero-like constant, either finds the existing definition of
the corresponding toggled one (OpConstantNull becomes zero-valued
scalar OpConstant or vice versa) or creates a new one if it doesn't
exist and records that the two are synonyms

For each use of these constants, probabilistically decides whether to
change it with the corresponding toggled constant id (as described in
#3486 )

Only uses inside blocks of instructions are considered and not, for
example, in instructions declaring other constants.
2020-07-15 12:58:29 +01:00

373 lines
14 KiB
C++

// Copyright (c) 2019 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef SOURCE_FUZZ_FUZZER_CONTEXT_H_
#define SOURCE_FUZZ_FUZZER_CONTEXT_H_
#include <functional>
#include <utility>
#include "source/fuzz/protobufs/spirvfuzz_protobufs.h"
#include "source/fuzz/random_generator.h"
#include "source/opt/function.h"
namespace spvtools {
namespace fuzz {
// Encapsulates all parameters that control the fuzzing process, such as the
// source of randomness and the probabilities with which transformations are
// applied.
class FuzzerContext {
public:
// Constructs a fuzzer context with a given random generator and the minimum
// value that can be used for fresh ids.
FuzzerContext(RandomGenerator* random_generator, uint32_t min_fresh_id);
~FuzzerContext();
// Returns a random boolean.
bool ChooseEven();
// Returns true if and only if a randomly-chosen integer in the range [0, 100]
// is less than |percentage_chance|.
bool ChoosePercentage(uint32_t percentage_chance);
// Returns a random index into |sequence|, which is expected to have a 'size'
// method, and which must be non-empty. Typically 'HasSizeMethod' will be an
// std::vector.
template <typename HasSizeMethod>
uint32_t RandomIndex(const HasSizeMethod& sequence) const {
assert(sequence.size() > 0);
return random_generator_->RandomUint32(
static_cast<uint32_t>(sequence.size()));
}
// Selects a random index into |sequence|, removes the element at that index
// and returns it.
template <typename T>
T RemoveAtRandomIndex(std::vector<T>* sequence) const {
uint32_t index = RandomIndex(*sequence);
T result = sequence->at(index);
sequence->erase(sequence->begin() + index);
return result;
}
// Randomly shuffles a |sequence| between |lo| and |hi| indices inclusively.
// |lo| and |hi| must be valid indices to the |sequence|
template <typename T>
void Shuffle(std::vector<T>* sequence, size_t lo, size_t hi) const {
auto& array = *sequence;
if (array.empty()) {
return;
}
assert(lo <= hi && hi < array.size() && "lo and/or hi indices are invalid");
// i > lo to account for potential infinite loop when lo == 0
for (size_t i = hi; i > lo; --i) {
auto index =
random_generator_->RandomUint32(static_cast<uint32_t>(i - lo + 1));
if (lo + index != i) {
// Introduce std::swap to the scope but don't use it
// directly since there might be a better overload
using std::swap;
swap(array[lo + index], array[i]);
}
}
}
// Ramdomly shuffles a |sequence|
template <typename T>
void Shuffle(std::vector<T>* sequence) const {
if (!sequence->empty()) {
Shuffle(sequence, 0, sequence->size() - 1);
}
}
// Yields an id that is guaranteed not to be used in the module being fuzzed,
// or to have been issued before.
uint32_t GetFreshId();
// Returns a vector of |count| fresh ids.
std::vector<uint32_t> GetFreshIds(const uint32_t count);
// Probabilities associated with applying various transformations.
// Keep them in alphabetical order.
uint32_t GetChanceOfAddingAccessChain() {
return chance_of_adding_access_chain_;
}
uint32_t GetChanceOfAddingAnotherStructField() {
return chance_of_adding_another_struct_field_;
}
uint32_t GetChanceOfAddingArrayOrStructType() {
return chance_of_adding_array_or_struct_type_;
}
uint32_t GetChanceOfAddingCopyMemory() {
return chance_of_adding_copy_memory_;
}
uint32_t GetChanceOfAddingDeadBlock() { return chance_of_adding_dead_block_; }
uint32_t GetChanceOfAddingDeadBreak() { return chance_of_adding_dead_break_; }
uint32_t GetChanceOfAddingDeadContinue() {
return chance_of_adding_dead_continue_;
}
uint32_t GetChanceOfAddingEquationInstruction() {
return chance_of_adding_equation_instruction_;
}
uint32_t GetChanceOfAddingGlobalVariable() {
return chance_of_adding_global_variable_;
}
uint32_t GetChanceOfAddingImageSampleUnusedComponents() {
return chance_of_adding_image_sample_unused_components_;
}
uint32_t GetChanceOfAddingLoad() { return chance_of_adding_load_; }
uint32_t GetChanceOfAddingLocalVariable() {
return chance_of_adding_local_variable_;
}
uint32_t GetChanceOfAddingMatrixType() {
return chance_of_adding_matrix_type_;
}
uint32_t GetChanceOfAddingNoContractionDecoration() {
return chance_of_adding_no_contraction_decoration_;
}
uint32_t GetChanceOfAddingParameters() { return chance_of_adding_parameters; }
uint32_t GetChanceOfAddingStore() { return chance_of_adding_store_; }
uint32_t GetChanceOfAddingSynonyms() { return chance_of_adding_synonyms_; }
uint32_t GetChanceOfAddingVectorShuffle() {
return chance_of_adding_vector_shuffle_;
}
uint32_t GetChanceOfAddingVectorType() {
return chance_of_adding_vector_type_;
}
uint32_t GetChanceOfAdjustingBranchWeights() {
return chance_of_adjusting_branch_weights_;
}
uint32_t GetChanceOfAdjustingFunctionControl() {
return chance_of_adjusting_function_control_;
}
uint32_t GetChanceOfAdjustingLoopControl() {
return chance_of_adjusting_loop_control_;
}
uint32_t GetChanceOfAdjustingMemoryOperandsMask() {
return chance_of_adjusting_memory_operands_mask_;
}
uint32_t GetChanceOfAdjustingSelectionControl() {
return chance_of_adjusting_selection_control_;
}
uint32_t GetChanceOfCallingFunction() { return chance_of_calling_function_; }
uint32_t GetChanceOfChoosingStructTypeVsArrayType() {
return chance_of_choosing_struct_type_vs_array_type_;
}
uint32_t GetChanceOfChoosingWorkgroupStorageClass() {
return chance_of_choosing_workgroup_storage_class_;
}
uint32_t GetChanceOfConstructingComposite() {
return chance_of_constructing_composite_;
}
uint32_t GetChanceOfCopyingObject() { return chance_of_copying_object_; }
uint32_t GetChanceOfDonatingAdditionalModule() {
return chance_of_donating_additional_module_;
}
uint32_t GetChanceOfGoingDeeperWhenMakingAccessChain() {
return chance_of_going_deeper_when_making_access_chain_;
}
uint32_t GetChanceOfInterchangingZeroLikeConstants() {
return chance_of_interchanging_zero_like_constants_;
}
uint32_t GetChanceOfInvertingComparisonOperators() {
return chance_of_inverting_comparison_operators_;
}
uint32_t ChanceOfMakingDonorLivesafe() {
return chance_of_making_donor_livesafe_;
}
uint32_t GetChanceOfMergingBlocks() { return chance_of_merging_blocks_; }
uint32_t GetChanceOfMovingBlockDown() { return chance_of_moving_block_down_; }
uint32_t GetChanceOfObfuscatingConstant() {
return chance_of_obfuscating_constant_;
}
uint32_t GetChanceOfOutliningFunction() {
return chance_of_outlining_function_;
}
uint32_t GetChanceOfPermutingParameters() {
return chance_of_permuting_parameters_;
}
uint32_t GetChanceOfPermutingPhiOperands() {
return chance_of_permuting_phi_operands_;
}
uint32_t GetChanceOfPushingIdThroughVariable() {
return chance_of_pushing_id_through_variable_;
}
uint32_t GetChanceOfReplacingIdWithSynonym() {
return chance_of_replacing_id_with_synonym_;
}
uint32_t GetChanceOfReplacingLinearAlgebraInstructions() {
return chance_of_replacing_linear_algebra_instructions_;
}
uint32_t GetChanceOfReplacingParametersWithGlobals() {
return chance_of_replacing_parameters_with_globals_;
}
uint32_t GetChanceOfSplittingBlock() { return chance_of_splitting_block_; }
uint32_t GetChanceOfSwappingConditionalBranchOperands() {
return chance_of_swapping_conditional_branch_operands_;
}
uint32_t GetChanceOfTogglingAccessChainInstruction() {
return chance_of_toggling_access_chain_instruction_;
}
// Other functions to control transformations. Keep them in alphabetical
// order.
uint32_t GetMaximumEquivalenceClassSizeForDataSynonymFactClosure() {
return max_equivalence_class_size_for_data_synonym_fact_closure_;
}
uint32_t GetMaximumNumberOfFunctionParameters() {
return max_number_of_function_parameters_;
}
std::pair<uint32_t, uint32_t> GetRandomBranchWeights() {
std::pair<uint32_t, uint32_t> branch_weights = {0, 0};
while (branch_weights.first == 0 && branch_weights.second == 0) {
// Using INT32_MAX to do not overflow UINT32_MAX when the branch weights
// are added together.
branch_weights.first = random_generator_->RandomUint32(INT32_MAX);
branch_weights.second = random_generator_->RandomUint32(INT32_MAX);
}
return branch_weights;
}
std::vector<uint32_t> GetRandomComponentsForVectorShuffle(
uint32_t max_component_index) {
// Component count must be in range [2, 4].
std::vector<uint32_t> components(random_generator_->RandomUint32(2) + 2);
for (uint32_t& component : components) {
component = random_generator_->RandomUint32(max_component_index);
}
return components;
}
uint32_t GetRandomIndexForAccessChain(uint32_t composite_size_bound) {
return random_generator_->RandomUint32(composite_size_bound);
}
uint32_t GetRandomLoopControlPartialCount() {
return random_generator_->RandomUint32(max_loop_control_partial_count_);
}
uint32_t GetRandomLoopControlPeelCount() {
return random_generator_->RandomUint32(max_loop_control_peel_count_);
}
uint32_t GetRandomLoopLimit() {
return random_generator_->RandomUint32(max_loop_limit_);
}
uint32_t GetRandomNumberOfNewParameters(uint32_t num_of_params) {
assert(num_of_params < GetMaximumNumberOfFunctionParameters());
return ChooseBetweenMinAndMax(
{1, std::min(max_number_of_new_parameters_,
GetMaximumNumberOfFunctionParameters() - num_of_params)});
}
uint32_t GetRandomSizeForNewArray() {
// Ensure that the array size is non-zero.
return random_generator_->RandomUint32(max_new_array_size_limit_ - 1) + 1;
}
protobufs::TransformationAddSynonym::SynonymType GetRandomSynonymType();
uint32_t GetRandomUnusedComponentCountForImageSample(
uint32_t max_unused_component_count) {
// Ensure that the number of unused components is non-zero.
return random_generator_->RandomUint32(max_unused_component_count) + 1;
}
bool GoDeeperInConstantObfuscation(uint32_t depth) {
return go_deeper_in_constant_obfuscation_(depth, random_generator_);
}
private:
// The source of randomness.
RandomGenerator* random_generator_;
// The next fresh id to be issued.
uint32_t next_fresh_id_;
// Probabilities associated with applying various transformations.
// Keep them in alphabetical order.
uint32_t chance_of_adding_access_chain_;
uint32_t chance_of_adding_another_struct_field_;
uint32_t chance_of_adding_array_or_struct_type_;
uint32_t chance_of_adding_copy_memory_;
uint32_t chance_of_adding_dead_block_;
uint32_t chance_of_adding_dead_break_;
uint32_t chance_of_adding_dead_continue_;
uint32_t chance_of_adding_equation_instruction_;
uint32_t chance_of_adding_global_variable_;
uint32_t chance_of_adding_image_sample_unused_components_;
uint32_t chance_of_adding_load_;
uint32_t chance_of_adding_local_variable_;
uint32_t chance_of_adding_matrix_type_;
uint32_t chance_of_adding_no_contraction_decoration_;
uint32_t chance_of_adding_parameters;
uint32_t chance_of_adding_store_;
uint32_t chance_of_adding_synonyms_;
uint32_t chance_of_adding_vector_shuffle_;
uint32_t chance_of_adding_vector_type_;
uint32_t chance_of_adjusting_branch_weights_;
uint32_t chance_of_adjusting_function_control_;
uint32_t chance_of_adjusting_loop_control_;
uint32_t chance_of_adjusting_memory_operands_mask_;
uint32_t chance_of_adjusting_selection_control_;
uint32_t chance_of_calling_function_;
uint32_t chance_of_choosing_struct_type_vs_array_type_;
uint32_t chance_of_choosing_workgroup_storage_class_;
uint32_t chance_of_constructing_composite_;
uint32_t chance_of_copying_object_;
uint32_t chance_of_donating_additional_module_;
uint32_t chance_of_going_deeper_when_making_access_chain_;
uint32_t chance_of_interchanging_zero_like_constants_;
uint32_t chance_of_inverting_comparison_operators_;
uint32_t chance_of_making_donor_livesafe_;
uint32_t chance_of_merging_blocks_;
uint32_t chance_of_moving_block_down_;
uint32_t chance_of_obfuscating_constant_;
uint32_t chance_of_outlining_function_;
uint32_t chance_of_permuting_parameters_;
uint32_t chance_of_permuting_phi_operands_;
uint32_t chance_of_pushing_id_through_variable_;
uint32_t chance_of_replacing_id_with_synonym_;
uint32_t chance_of_replacing_linear_algebra_instructions_;
uint32_t chance_of_replacing_parameters_with_globals_;
uint32_t chance_of_splitting_block_;
uint32_t chance_of_swapping_conditional_branch_operands_;
uint32_t chance_of_toggling_access_chain_instruction_;
// Limits associated with various quantities for which random values are
// chosen during fuzzing.
// Keep them in alphabetical order.
uint32_t max_equivalence_class_size_for_data_synonym_fact_closure_;
uint32_t max_loop_control_partial_count_;
uint32_t max_loop_control_peel_count_;
uint32_t max_loop_limit_;
uint32_t max_new_array_size_limit_;
uint32_t max_number_of_function_parameters_;
uint32_t max_number_of_new_parameters_;
// Functions to determine with what probability to go deeper when generating
// or mutating constructs recursively.
const std::function<bool(uint32_t, RandomGenerator*)>&
go_deeper_in_constant_obfuscation_;
// Requires |min_max.first| <= |min_max.second|, and returns a value in the
// range [ |min_max.first|, |min_max.second| ]
uint32_t ChooseBetweenMinAndMax(const std::pair<uint32_t, uint32_t>& min_max);
};
} // namespace fuzz
} // namespace spvtools
#endif // SOURCE_FUZZ_FUZZER_CONTEXT_H_